CN217812559U - BIM-based supporting device for building structure - Google Patents

Abstract

The utility model discloses a strutting arrangement for building structure based on BIM, the on-line screen storage device comprises a base, the removal wheel is installed to the bottom of base, install the slide bar in the recess that the base bottom set up, slidable mounting has the slide on the slide bar, the bottom at slide both ends is provided with the locating plate, fixed cylinder is installed at the top of base, fixed cylinder is installed at the top of fixed cylinder, slidable mounting has the lifter in the fixed cylinder, the bracing piece is installed at the top of lifter, the roof is installed at the top of bracing piece, the both sides of bracing piece are provided with the backup pad, the both ends of backup pad are provided with stop device, through rotating the lift support ground that first crank can conveniently adjust the locating plate, the efficiency is improved, lift through rotating second crank transmission lifter can make altitude mixture control more accurate, it is more convenient to adjust, it makes the elastic chucking of rotation seat in the recess of oblique shelves frame bottom to rotate the torsional spring, thereby can prevent that the circuit from droing from the U-shaped frame.

Description

BIM-based supporting device for building structure

Technical Field

The utility model relates to a strutting arrangement technical field specifically is a strutting arrangement for building structure based on BIM.

Background

Building Information Models (BIM) are a new tool in architecture, engineering and civil engineering. The BIM technology is proposed by Autodesk company in 2002 year rate and is widely accepted by the industry in the global scope, the BIM technology can help to realize the integration of building information, various information is always integrated in a three-dimensional model information database from the design, construction and operation of a building to the end of the whole life cycle of the building, and personnel of design teams, construction units, facility operation departments, owners and the like can perform cooperative work based on BIM, thereby effectively improving the working efficiency, saving resources, reducing the cost and realizing sustainable development, and the building structure of the building needs to be supported by a supporting device

Grant notice number CN 212849702U's a disclosed strutting arrangement for building structure based on BIM, the utility model discloses a strutting arrangement for building structure based on BIM, including first auxiliary stay, first roof, first rubber pad, the second roof, the bracing piece, second auxiliary stay, positioner, the walking wheel, the bottom plate, body of rod and third locating hole, it is used for making things convenient for operating personnel thrust unit to remove to set up the walking wheel, the portability of device has been improved, the threaded rod rotates in second barrel, thereby make the plectane move down to contact with ground, thereby realize the location of device subaerial position, pulling montant rebound, thereby drive clamp plate and diaphragm separation, be used for placing the cable through having seted up the spacing groove at the diaphragm top, further place the cable on the spacing groove at diaphragm top, loosen the montant, thereby make the montant move down under the effect of spring, thereby further drive clamp plate rebound, thereby realize spacing to the cable, thereby finally realize the cable support to.

However, the support device supports the ground, needs to bend down to rotate to contact the ground, and the lifting adjustment can only limit the height according to the limit Kong Diaojie, so that the limit of the cable is unreliable and the cable is easy to fall off.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a strutting arrangement for building structure based on BIM to solve and adjust inconvenient and the spacing problem that drops easily of cable.

In order to achieve the above object, the utility model provides a following technical scheme: a BIM-based support device for building structures, comprising: the base, the removal wheel is installed to the bottom of base, install the slide bar in the recess that the base bottom set up, slidable mounting has the slide on the slide bar, the bottom at slide both ends is provided with the locating plate, fixed section of thick bamboo is installed at the top of base, fixed smooth section of thick bamboo is installed at the top of fixed section of thick bamboo, slidable mounting has the lifter in the fixed smooth section of thick bamboo, the bracing piece is installed at the top of lifter, the roof is installed at the top of bracing piece, the both sides of bracing piece are provided with the backup pad, the both ends of backup pad are provided with stop device.

Preferably, a transmission rod is rotatably installed in the fixed barrel through a supporting bearing, a first crank is installed on the side edge of the fixed barrel, a first meshing gear is arranged between the first crank and the transmission rod for transmission, the first crank can conveniently rotate through the first meshing gear to control the rotation of the transmission rod, and the supporting bearing is arranged to enable the transmission rod to stably rotate without shaking.

Preferably, the bottom of transfer line is provided with first threaded rod, be provided with the threaded sleeve on the slide and pass through the screw mode installation with first threaded rod, first threaded rod all is provided with limit baffle with the bottom of slide bar, and the transfer line drives the rotation of first threaded rod, then can drive the threaded sleeve lift of screw mode installation, and then can drive the lift support ground of slide and locating plate, and the limit baffle who sets up moreover can prevent that the slide from droing.

Preferably, rotate through support bearing among the limit baffle and install the second threaded rod, the second crank is installed to the side of fixed smooth section of thick bamboo, through second meshing gear drive between second crank and the second threaded rod, the second crank can be through the rotation of second meshing gear convenient control second threaded rod, and it is vertical to rotate through support bearing and install the steady rotation in fixed smooth section of thick bamboo.

Preferably, the second threaded rod is installed in a threaded groove of the lifting rod in a threaded mode, the lifting rod is slidably installed in a limiting sliding groove in the fixed sliding barrel, the second threaded rod is installed in the lifting rod in a threaded mode, the limiting sliding groove is arranged to prevent the lifting rod from rotating in the fixed sliding barrel, and therefore the lifting rod can be adjusted through rotation of the second threaded rod, and the adjusting height is accurate.

Preferably, stop device is last to be provided with the U-shaped frame and to install the top at the backup pad, one side of U-shaped frame is provided with the side stock, be provided with the bevel gear frame on the side stock, bevel gear frame is inside and the downward sloping and contained angle is provided with the arcwall face and can makes the cable spacing wherein.

Preferably, the opposite side of U-shaped frame is provided with the side quarter butt, rotate through rotating the torsional spring on the side quarter butt and install the rotation seat, the bottom of rotating the seat is connected with the stay cord and stretches out the outside through the through-hole, and the cable slides the contained angle of shelves bottom to one side through pressing the rotation seat, rotates the torsional spring and makes the elastic chucking of rotation seat in the recess of shelves bottom to one side to can prevent that the circuit from droing from the U-shaped frame, be provided with the stay cord moreover and can conveniently open the breach with the shelves to one side and pull out the cable.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses first crank can conveniently pass through the rotation of first meshing gear rotation control transfer line, and the transfer line drives the rotation of first threaded rod, then can drive the threaded sleeve lift of screw thread mode installation, can conveniently adjust the lift support ground of locating plate through rotating first crank, raises the efficiency.

2. The utility model discloses the second crank can be through the rotation of the convenient control second threaded rod of second meshing gear, and the second threaded rod passes through the screw mode and installs in the lifter, and the lift through rotating second crank transmission lifter can make altitude mixture control more accurate, and it is more convenient to adjust.

3. The utility model discloses the cable is through pressing the contained angle that rotates the seat and then slide to shelves frame bottom to one side, rotates the torsional spring and makes the elastic chucking of rotation seat in the recess of shelves frame bottom to one side to can prevent that the circuit from droing from the U-shaped frame, be provided with moreover the stay cord and can conveniently open the breach with shelves frame to one side and pull out the cable.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the utility model at a;

FIG. 3 is an enlarged view of the point b of the present invention;

FIG. 4 is an enlarged view of the utility model at c;

in the figure: 1. a base; 2. a moving wheel; 3. positioning a plate; 4. a slide plate; 5. a slide bar; 6. a transmission rod; 7. a support bearing; 8. a first threaded rod; 9. a threaded sleeve; 10. a first meshing gear; 11. a first crank; 12. a limiting baffle; 13. a fixed cylinder; 14. fixing a sliding cylinder; 15. a lifting rod; 16. a limiting chute; 17. a second threaded rod; 18. a second meshing gear; 19. a second crank; 20. a support bar; 21. a support plate; 22. a top plate; 23. a limiting device; 24. a U-shaped frame; 25. a side long rod; 26. an inclined gear frame; 27. a short side bar; 28. a rotating seat; 29. rotating the torsion spring; 30. and pulling a rope.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Example 1

Referring to fig. 1 and 2, there is shown a BIM-based supporting apparatus for a building structure, including: base 1, removal wheel 2 is installed to base 1's bottom, install slide bar 5 in the recess that base 1 bottom set up, slidable mounting has slide 4 on slide bar 5, the bottom at slide 4 both ends is provided with locating plate 3, fixed section of thick bamboo 13 is installed at base 1's top, fixed section of thick bamboo 14 is installed at fixed section of thick bamboo 13's top, slidable mounting has lifter 15 in the fixed section of thick bamboo 14, bracing piece 20 is installed at lifter 15's top, roof 22 is installed at bracing piece 20's top, the both sides of bracing piece 20 are provided with backup pad 21, the both ends of backup pad 21 are provided with stop device 23.

In order to conveniently adjust the positioning plate 3 to support the ground, a transmission rod 6 is rotatably installed in a fixed barrel 13 through a support bearing 7, a first crank 11 is installed on the side edge of the fixed barrel 13, a first meshing gear 10 is arranged between the first crank 11 and the transmission rod 6 for transmission, the first crank 11 can conveniently control the transmission rod 6 to rotate through the rotation of the first meshing gear 10, the support bearing 7 is arranged to enable the transmission rod 6 to keep stable rotation and not shake, a first threaded rod 8 is arranged at the bottom of the transmission rod 6, a threaded sleeve 9 and the first threaded rod 8 are arranged on a sliding plate 4 and installed in a threaded mode, a limiting baffle 12 is arranged at the bottoms of the first threaded rod 8 and the sliding rod 5, the transmission rod 6 drives the first threaded rod 8 to rotate, then the threaded sleeve 9 installed in a threaded mode can be driven to lift, the sliding plate 4 and the positioning plate 3 can be driven to lift and support the ground, and the sliding plate 4 can be prevented from falling off due to the limiting baffle 12.

In this embodiment, first crank 11 can conveniently rotate the rotation of control transfer line 6 through first meshing gear 10, and transfer line 6 drives the rotation of first threaded rod 8, then can drive the threaded bush 9 lift of screw thread mode installation, and then can drive slide 4 and locating plate 3's lift support ground, and the limit baffle 12 that sets up moreover can prevent slide 4 and drop, can conveniently adjust locating plate 3's lift support ground through rotating first crank 11, raises the efficiency.

Example 2

Referring to fig. 1 and 3, this embodiment is further illustrated with respect to example 1, in which a BIM-based support apparatus for a building structure includes: base 1, removal wheel 2 is installed to base 1's bottom, install slide bar 5 in the recess that base 1 bottom set up, slidable mounting has slide 4 on slide bar 5, the bottom at slide 4 both ends is provided with locating plate 3, fixed section of thick bamboo 13 is installed at base 1's top, fixed section of thick bamboo 14 is installed at fixed section of thick bamboo 13's top, slidable mounting has lifter 15 in the fixed section of thick bamboo 14, bracing piece 20 is installed at lifter 15's top, roof 22 is installed at bracing piece 20's top, the both sides of bracing piece 20 are provided with backup pad 21, the both ends of backup pad 21 are provided with stop device 23.

In order to conveniently adjust the lifting support height, a second threaded rod 17 is rotatably installed in the limit baffle 12 through a support bearing 7, a second crank 19 is installed on the side edge of the fixed sliding barrel 14, the second crank 19 and the second threaded rod 17 are in transmission through a second meshing gear 18, the second crank 19 can conveniently control the rotation of the second threaded rod 17 through the second meshing gear 18, the second crank is vertically and rotatably installed in the fixed sliding barrel 14 through the support bearing 7 to stably rotate, the second threaded rod 17 is installed in a threaded groove of the lifting rod 15 in a threaded mode, the lifting rod 15 is slidably installed in a limit sliding groove 16 in the fixed sliding barrel 14, the second threaded rod 17 is installed in the lifting rod 15 in a threaded mode, and the limit sliding groove 16 is arranged to prevent the lifting rod 15 from rotating in the fixed sliding barrel 14, so that the lifting rod 15 can be adjusted by the rotation of the second threaded rod 17, and the height can be adjusted more accurately.

In this embodiment, the second crank 19 can conveniently control the rotation of the second threaded rod 17 through the second meshing gear 18, the second threaded rod 17 is installed in the lifting rod 15 through a threaded mode, and the limiting sliding groove 16 is arranged to prevent the lifting rod 15 from rotating in the fixed sliding barrel 14, so that the lifting of the lifting rod 15 can be adjusted through the rotation of the second threaded rod 17, the height adjustment can be more accurate through the lifting of the second crank 19 and the transmission lifting rod 15, and the adjustment is more convenient.

Example 3

Referring to fig. 1 and 4, this embodiment further illustrates, in another embodiment, a BIM-based support device for a building structure, including: base 1, removal wheel 2 is installed to base 1's bottom, install slide bar 5 in the recess that base 1 bottom set up, slidable mounting has slide 4 on slide bar 5, the bottom at slide 4 both ends is provided with locating plate 3, fixed section of thick bamboo 13 is installed at base 1's top, fixed section of thick bamboo 14 is installed at fixed section of thick bamboo 13's top, slidable mounting has lifter 15 in the fixed section of thick bamboo 14, bracing piece 20 is installed at lifter 15's top, roof 22 is installed at bracing piece 20's top, the both sides of bracing piece 20 are provided with backup pad 21, the both ends of backup pad 21 are provided with stop device 23.

In order to prevent the circuit from falling off, the limiting device 23 is provided with a U-shaped frame 24 which is arranged at the top of the supporting plate 21, one side of the U-shaped frame 24 is provided with a long side rod 25, the long side rod 25 is provided with an inclined frame 26, the inclined frame 26 inclines inwards and downwards, an arc-shaped surface is arranged at an included angle so that the cable can be limited in the inclined frame, the other side of the U-shaped frame 24 is provided with a short side rod 27, the short side rod 27 is rotatably provided with a rotating seat 28 through a rotating torsion spring 29, the bottom of the rotating seat 28 is connected with a pull rope 30 which extends to the outside through a through hole, the cable slides to the included angle at the bottom of the inclined frame 26 through pressing the rotating seat 28, the rotating torsion spring 29 enables the rotating seat 28 to be elastically clamped in a groove at the bottom of the inclined frame 26, so that the circuit can be prevented from falling off from the U-shaped frame 24, and the pull rope 30 can be convenient for opening the rotating seat 28 and the inclined frame 26 to pull out the cable.

In this embodiment, the inclined shelves 26 are inwardly inclined and the included angle is provided with an arc-shaped surface so that the cable is limited therein, the cable slides to the included angle of the bottom of the inclined shelves 26 by pressing the rotating seat 28, and the torsional spring 29 is rotated to enable the rotating seat 28 to be elastically clamped in the groove of the bottom of the inclined shelves 26, so that the circuit can be prevented from falling off from the U-shaped shelf 24, and the stay cord 30 is provided to facilitate the opening of the rotating seat 28 and the inclined shelves 26 and pull out the cable.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A BIM-based support device for building structures, comprising:

base (1), removal wheel (2) are installed to the bottom of base (1), install slide bar (5) in the recess that base (1) bottom set up, slidable mounting has slide (4) on slide bar (5), the bottom at slide (4) both ends is provided with locating plate (3), solid fixed cylinder (13) are installed at the top of base (1), solid fixed cylinder (14) are installed at the top of solid fixed cylinder (13), slidable mounting has lifter (15) in solid fixed cylinder (14), bracing piece (20) are installed at the top of lifter (15), roof (22) are installed at the top of bracing piece (20), the both sides of bracing piece (20) are provided with backup pad (21), the both ends of backup pad (21) are provided with stop device (23).

2. The BIM-based support device for building structures of claim 1, wherein: a transmission rod (6) is rotatably installed in the fixed barrel (13) through a supporting bearing (7), a first crank (11) is installed on the side edge of the fixed barrel (13), and a first meshing gear (10) is arranged between the first crank (11) and the transmission rod (6) for transmission.

3. The BIM-based support device for building structures of claim 2, wherein: the bottom of transfer line (6) is provided with first threaded rod (8), be provided with on slide (4) threaded sleeve (9) and pass through the screw mode installation with first threaded rod (8), first threaded rod (8) all are provided with limit baffle (12) with the bottom of slide bar (5).

4. The BIM-based support device for building structures of claim 3, wherein: a second threaded rod (17) is rotatably mounted in the limit baffle (12) through a supporting bearing (7), a second crank (19) is mounted on the side edge of the fixed sliding barrel (14), and the second crank (19) and the second threaded rod (17) are in transmission through a second meshing gear (18).

5. The BIM-based support device for building structures of claim 4, wherein: the second threaded rod (17) is installed in a threaded groove of the lifting rod (15) in a threaded mode, and the lifting rod (15) is installed in a limiting sliding groove (16) in the fixed sliding barrel (14) in a sliding mode.

6. The BIM-based support device for building structures of claim 1, wherein: the limiting device (23) is provided with a U-shaped frame (24) which is installed at the top of the supporting plate (21), one side of the U-shaped frame (24) is provided with a side long rod (25), and the side long rod (25) is provided with an inclined gear frame (26).

7. The BIM-based support device for building structures of claim 6, wherein: the opposite side of U-shaped frame (24) is provided with side quarter butt (27), rotate through rotating torsional spring (29) and install through side quarter butt (27) and rotate seat (28), the bottom of rotating seat (28) is connected with stay cord (30) and stretches out the outside through the through-hole.

Images